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Tuesday, July 03, 2012

Fermilab assists in discovering "God particle"

BATAVIA - This week is Australia, physicists will learn more about the "God particle" at conference discussing a key element of how our universe formed, the Higgs boson. Some of the experimentation to develop the concept was done at Chicago's west suburban Fermilab. The Daily Herald writes:

Fermilab theorist Joseph Lykken said the Higgs boson “gets at the center, for some physicists, of why the universe is here in the first place.”

Though an impenetrable concept to many, the Higgs boson has until now been just that — a concept intended to explain a riddle: How were subatomic particles, such as electrons, protons and neutrons, themselves formed? What gives them their mass?

The answer came in a theory first proposed by Scottish physicist Peter Higgs and others in the 1960s. It envisioned an energy field where particles interact with a key particle, the Higgs boson.

The idea is that other particles attract Higgs bosons and the more they attract, the bigger their mass will be. Some liken the effect to a ubiquitous Higgs snowfield that affects other particles traveling through it depending on whether they are wearing, metaphorically speaking, skis, snowshoes or just shoes.

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Fermilab assists in discovering "God particle"

BATAVIA - This week is Australia, physicists will learn more about the "God particle" at conference discussing a key element of how our universe formed, the Higgs boson. Some of the experimentation to develop the concept was done at Chicago's west suburban Fermilab. The Daily Herald writes:

Fermilab theorist Joseph Lykken said the Higgs boson “gets at the center, for some physicists, of why the universe is here in the first place.”

Though an impenetrable concept to many, the Higgs boson has until now been just that — a concept intended to explain a riddle: How were subatomic particles, such as electrons, protons and neutrons, themselves formed? What gives them their mass?

The answer came in a theory first proposed by Scottish physicist Peter Higgs and others in the 1960s. It envisioned an energy field where particles interact with a key particle, the Higgs boson.

The idea is that other particles attract Higgs bosons and the more they attract, the bigger their mass will be. Some liken the effect to a ubiquitous Higgs snowfield that affects other particles traveling through it depending on whether they are wearing, metaphorically speaking, skis, snowshoes or just shoes.